Isolation, Structure Determination, and Biological ... - ACS Publications

Aug 5, 1998 - Lyngbyastatin 1 (1a), a new cytotoxic analogue of dolastatins 12 (2a) ..... Australia: An important feeding ground for the green turtle ...
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J. Nat. Prod. 1998, 61, 1221-1225

1221

Isolation, Structure Determination, and Biological Activity of Dolastatin 12 and Lyngbyastatin 1 from Lyngbya majuscula/Schizothrix calcicola Cyanobacterial Assemblages George G. Harrigan,† Wesley Y. Yoshida,† Richard E. Moore,*,† Dale G. Nagle,‡,§ Peter U. Park,‡ Jason Biggs,‡ Valerie J. Paul,*,‡ Susan L. Mooberry,| Thomas H. Corbett,⊥ and Fred A. Valeriote∇ Department of Chemistry, University of Hawaii at Manoa, Honolulu, Hawaii 96822, University of Guam Marine Laboratory, UOG Station, Mangilao, Guam 96923, Cancer Research Center of Hawaii, 1236 Lauhala Street, Honolulu, Hawaii 96813, Karmanos Cancer Center, Wayne State University, Detroit, Michigan 48201, and Department of Internal Medicine, Wayne State University, Detroit, Michigan 48201 Received March 27, 1998

Lyngbyastatin 1 (1a), a new cytotoxic analogue of dolastatins 12 (2a) and 11 (4), was isolated as an inseparable mixture with its C-15 epimer (1b) from extracts of a Lyngbya majuscula/Schizothrix calcicola assemblage and a L. majuscula strain collected near Guam. Dolastatin 12 (2a) was also encountered as an inseparable mixture with its C-15 epimer (2b) in L. majuscula/S. calcicola assemblages. At least one of the compounds in each mixture appeared to exist in solution as a mixture of slowly interconverting conformers resulting in broadened signals in 1H NMR spectra. Structure elucidation therefore relied principally on mass spectroscopy and chemical degradation studies. Both 1ab and 2ab proved toxic with only marginal or no antitumor activity when tested against colon adenocarcinoma #38 or mammary adenocarcinoma #16/C. Both 1ab and 2ab were shown to be potent disrupters of cellular microfilament networks. Terrestrial and marine blue-green algae have proven to be an extremely valuable source of novel bioactive agents such as the cryptophycins1 and curacins.2 Cryptophycin52 is planned for human clinical trials as an anticancer drug soon. As part of an ongoing program to search for new anticancer compounds from cyanophytes, we have found that extracts of a Lyngbya majuscula strain and two separate L. majuscula/Schizothrix calcicola assemblages, collected near Guam, exhibit marginally selective solid tumor toxicity in the Corbett soft agar disk diffusion assay modeled after the one commonly used in antifungal and antibacterial testing.3 Bioassay-guided chromatographic fractionation resulted in the isolation of two separate active complexes, 1ab and 2ab. Results and Discussion Although electrospray mass spectroscopy suggested the presence of only one component in each complex, extensive signal doubling and broadening in the 1H and 13C NMR spectra determined in a variety of solvents indicated that both complexes either contained at least two isomeric species or existed as a mixture of slowly interconverting conformers in solution. Variable-temperature experiments, which included heating each complex to 100 °C in DMSOd6 and in DMF-d6, offered minimal improvement, and this complicated any attempt to use NMR spectroscopy as a significant tool in structure elucidation. It was evident from these spectral data, however, that 1ab and 2ab contained N-methylated depsipeptides and were closely related to each other. The 1H NMR spectra of these * To whom correspondence should be addressed. (R.E.M.) Tel.: (808) 9567232. Fax: (808) 956-5908. E-mail: [email protected]. (V.J.P.) Tel.: (671) 735-2186. Fax: (671) 734-6767. E-mail: [email protected]. † University of Hawaii at Manoa. ‡ University of Guam Marine Laboratory. § Current Address: Department of Pharmacognosy, University of Mississippi, University, MS 38677. | Cancer Research Center of Hawaii. ⊥ Karmanos Cancer Center, Wayne State University. ∇ Department of Internal Medicine, Wayne State University.

10.1021/np9801211 CCC: $15.00

complexes recorded in CD3CN at 70 °C differed mainly in that 1ab showed a methoxy signal at δ 3.78, which was absent in the spectrum of 2ab, and a pair of doublets at δ 6.86 (J ) 8.5 Hz) and δ 7.18 (J ) 8.5 Hz) as opposed to a 5H multiplet centered at δ 7.24 for 2ab. This suggested that 1ab was a methoxy analogue of 2ab. This was further supported by HRFABMS, which indicated a 30 mass unit difference between these two; the components in 1ab had a molecular formula of C51H82N8O12, whereas the components in 2ab had a molecular formula of C50H80N8O11. The molecular formulas and the cyanobacterial origin of these components suggested that they were N-methylated analogues of majusculamide C (3) or even of dolastatins 11 (4) and 12 (2a). Majusculamide C (3) is a known L. majuscula metabolite,4 whereas dolastatins 11 (4) and 12 (2a) are constituents of the sea hare, Dolabella auricularia,5 which is known to be a generalist algal herbivore. Supporting evidence for this proposal was obtained from amino acid analysis, which demonstrated that glycine was the only typical amino acid in 1ab and 2ab. This meant that if 1ab was, for example, an N-methylated analogue of majusculamide C (3) or dolastatin 11 (4), then the site of Nmethylation was the alanine residue.

© 1998 American Chemical Society and American Society of Pharmacognosy Published on Web 08/05/1998

1222 Journal of Natural Products, 1998, Vol. 61, No. 10

Harrigan et al.

Scheme 1. FABMS Spectral Fragmentation Pattern of Base Hydrolysates of 1ab, 2ab, and Majusculamide C (3)a

a Numbers in parentheses indicate to which hydrolysate a particular mass fragment refers. With the exception of the peak at m/z 356 all mass fragments were also observed in the corresponding CIDMS spectra.

Complexes 1ab, 2ab, and majusculamide C (3) were hydrolyzed in CH3OH/0.5M NaOH (1:1). The 1H NMR spectra of the hydrolysis products of 1ab and 2ab exhibited the same extensive broadening of signals observed in the NMR spectra of the parent compounds. Significantly, the hydrolysis product of 3 exhibited doubling of signals and an increased complexity in the 1H NMR spectrum attributable to epimerization of the acid/base sensitive 4-amino2,2-dimethyl-3-oxopentanoic acid (Ibu) residue. Diagnostic peaks included four methyl doublets (CD3CN, 300 MHz) at δ 0.21 (J ) 6.6 Hz), 0.28 (J ) 6.6 Hz), 0.62 (J ) 6.6 Hz), and 0.75 (J ) 6.6 Hz). In majusculamide C (3), only two methyl doublets in this region at δ 0.20 (J ) 6.1 Hz) and 0.62 (J ) 6.8 Hz), corresponding to the N-methylvaline methyl groups, were recorded. The base hydrolysis products were subjected to both HRFABMS and MS/MS. The fragmentation patterns shown in Scheme 1 supported the proposal that 1ab and 2ab were almost identical to majusculamide C (3) and dolastatins 11 (4) and 12 (2a). Marfey analysis6 of the acid hydrolysates of 1ab, 2ab, and majusculamide C (3) confirmed that 1ab and 2ab differed from majusculamide C (3) in possessing an Nmethyl-L-alanine rather than an L-alanine residue. Moreover, 1ab and 2ab contained an N-methyl-L-leucine rather than an N-methyl-L-isoleucine residue, indicating a closer structural relationship to dolastatin 11 (4) and dolastatin 12 (2a) than to majusculamide C (3). These were the only differences, however, and even after comparison with the NMR spectra of dolastatin 12 (2a),5 they did not immediately indicate the causes of the extensive broadening and doubling of signals in the NMR spectra of 1ab and 2ab. Chromatographic peaks corresponding to racemic 2-amino-4-methyl-3-pentanone derived from the Ibu residue in the Marfey profile offered the prospect that 1ab and 2ab each existed as a pair of C-15 epimers. However, proof of this possibility is made problematic by the acid/base sensitivity of the Ibu residue. Racemic mixtures of 2-amino4-methyl-3-pentanone are obtained in the acid hydrolysis of majusculamide C (3) where the chirality at C-15 has been assigned as S on the basis of synthetic endeavors.7 This stereochemistry also exists in dolastatins 11 (4) and 12 (2a).7

Epimerization of majusculamide C (3) could be effected with 5% TFA in CH3CN on overnight standing at room temperature. This resulted in doubling and broadening of signals in its 1H NMR spectrum. Diagnostic peaks included three distinct methoxy signals (CD3CN, 300 MHz) at δ 3.78, 3.81, and 3.82 in an approximate 2:1:1 ratio. No changes were observed in the 1H NMR spectra of 1ab and 2ab on similar acid treatment, indicating that epimerization at C-15 had already occurred. Because of the complexity of the NMR spectra of 1ab and 2ab, however, it was still necessary to rule out all other isomeric possibilities. Samples of 1ab and 2ab were fully hydrolyzed in 6 N HCl and individual components isolated by semipreparative C18 reversed-phase HPLC. As expected from the Marfey analysis, 1H NMR analysis of the amino acids thus obtained supported the presence only of the amino acids indicated in the structures given. The isolated hydroxy acid was determined to be L-isoleucic acid by CD and 1H NMR spectral comparison with a synthetic standard. No leucic acid was detected. This left only epimerization at C-15 as a source of the extensive broadening and doubling of peaks in the NMR spectra of 1ab and 2ab. We have assigned the 15S epimer 1a the trivial name lyngbyastatin 1 and the 15R epimer 1b as epilyngbyastatin 1. The C-15 epimer of dolastatin 12 (2a) was similarly assigned as epidolastatin 12 (2b). Complexes 1ab and 2ab had MICs of 0.1 and